Sharon Ng Architecture Portfolio 2020 by Sharon Ng

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S H A R O N

N G

P O R T F O L I O

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CERTIFICATE IV IN DESIGN (GRAPHICS DESIGN)

SUBJECT // DRAWING

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CERTIFICATE IV IN DESIGN (GRAPHICS DESIGN)

SUBJECT // DIGITAL SKILLS

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CERTIFICATE IV IN DESIGN (GRAPHICS DESIGN)

SUBJECT // PRINT COMPUTER SKILLS

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CERTIFICATE IV IN DESIGN (GRAPHICS DESIGN)

SUBJECT // T YPOGRAPHY

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WORK EXPERIENCE

PROJECT: THAI RESTAURANT, CABRAMATTA

conceptual ideas for interior of thai restaurant

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BACHELOR OF ARCHITECTURE AND ENVIRONMENTS

SUBJECT // BDES3025 ARCHITECTURAL PROFESSIONAL PRACTICE GRADE // D assigned site in newtown to undergo alterations and additions, following council regulations and DA application.

LEGEND CPT DB DP EXST GU MS PC PVC TB TL SD

CARPET DOUBLE BRICK DOWN PIPE EXISTING GUTTER METAL SHEET POLISHED CONCRETE POLYVINYL CHLORIDE TIMBER TILES SMOKE DETECTOR

SITE BOUNDARY DEMOLITION EXISTING WALL MAX HEIGHT NEIGHBOURING PROPERTY DOUBLE BRICK CARPET TIMBER TILES POLISHED CONCRETE GUTTER/DOWNPIPE GLASS OUTDOOR AREA CEMENT RENDER

MAX HEIGHT 9.5M

NEW MS ROOF WITH TIMBER FRAMING

Level 2 TL

MASTERS FFL 33.09

BATH

36020

BED 01

BED 02

3200

Level 1 FLR 33.09

32820 DB

RUMPUS FFL 30.05

LIGHTWELL

DINING

LIVING

2770

D1 MS

Ground Floor FLR 30.05

30050

NEW CONCRETE FOOTINGS

500MM DEPTH OF EXCAVATION

EXISTING METAL FENCE

PROPOSED PLANTS BOTANICAL NAME

COMMON NAME

POT SIZE

TAG

1 2 8 6 1 5

EUCALYPTUS MANIFERA (EM) LOMANDRA LONGIFOLIA (LL) PHORMIUM TENAX (PT) SYZYGIUM AUSTRALE (SA) WATERHOUSEA FLORIBUNDA (WF) CONVOLVULUS CNEORUM (CC)

LITTLE SPOTTY TANIKA ELFIN BUSH CHRISTMAS WEEPING LILLY PILLY BUSH MORNING

400MM 200MM 200MM 300MM 350MM 140MM

W1 W2 W3 W4 D1 D2

LEGEND

BASIX DOOR/ WINDOW SCHEDULE

QTY

DIMENSION (W X H) 600 X 1800 1810 X 1800 1400 X 1200 1400 X 500 762 X 2032 1050 X 1981

FRAME AND GLASS TYPE UPVC, UPVC, UPVC, UPVC, UPVC, UPVC,

CLEAR/AIRGAP/CLEAR CLEAR/AIRGAP/CLEAR CLEAR/AIRGAP/CLEAR CLEAR/AIRGAP/CLEAR CLEAR/AIRGAP/CLEAR CLEAR/AIRGAP/CLEAR

(UVALUE: (UVALUE: (UVALUE: (UVALUE: (UVALUE: (UVALUE:

3.67, 3.67, 3.67, 3.67, 3.67, 3.67,

SHGC: SHGC: SHGC: SHGC: SHGC: SHGC:

0.59) 0.59) 0.59) 0.59) 0.59) 0.59)

CPT DB DP EXST GU MS PC PVC TB TL SD

SITE BOUNDARY DEMOLITION EXISTING WALL MAX HEIGHT NEIGHBOURING PROPERTY DOUBLE BRICK CARPET TIMBER TILES POLISHED CONCRETE GUTTER/DOWNPIPE GLASS OUTDOOR AREA CEMENT RENDER

CARPET DOUBLE BRICK DOWN PIPE EXISTING GUTTER METAL SHEET POLISHED CONCRETE POLYVINYL CHLORIDE TIMBER TILES SMOKE DETECTOR

1 05 22120

735 270

7879

100

2240

100

8419

2565

270

100MM PVC DOWNPIPE

TILED FLOORING AS 3740-2010

W3 1.2H 1.4W W3 LIGHTWELL 1.2H 3.3X2.0M 1.4W AREA: 6.6SQM FFL 30.05

D1 2.4H 3.0W

270

DINING 6.3X3.6M W2 1.8H 1.8W

W2 1.8H 1.8W

AREA: 40.7SQM

880

W1 1.8H 0.6W

AREA: 22.7SQM FFL 30.05

270

W3 1.2H 1.4W W3 1.2H 1.4W

RUMPUS 3.8X3.6M AREA: 14SQM FFL 30.05

LIVING 3.6X5.0M AREA: 18SQM FFL 30.05

3515

KITCHEN 3.9X2.0M AREA: 7.8SQM FFL 30.05

5205

AREA: 2.2SQM

270

2003

FLR 30.05

5215MM BOUNDARY LINE

5205

29960MM BOUNDARY LINE

NEW CAVITY WALLS TO MATCH EXISTING STRUCTURE

270

2560

270

3815

100

4185

3350

270

6310

3350

270

4630

6850

270

4900

5275

LEGEND SHADOW FROM EXISTING ADDITIONAL SHADOW FRMO PROPOSED DEVELOPMENT

NUMBER 103. 2 STOREY BRICK TERRACE HEIGHT: 9.5M

NUMBER 1 103. 2 STOREY BRICK CK TERRAC TERRACE HEIGHT: 9.5M

29960 BOUNDARY LINE

MS EG G

WINTER SOLSTICE 9AM

29960 BOUNDARY LINE

WINTER SOLSTICE 12PM

29960 BOUNDARY LINE

5215 BOUNDARY LINE

2 degrees FALL

5215 BOUNDARY BOUNDAR AR ARY RY LINE RY

5215 BOUNDARY LINE

2 degrees FALL

5215 BOUNDARY LINE

270

1310

100 982

270

29960MM 60M 0MM BOUNDARY 0M BO BO OUND DARY R LINE

TOILET 1.0X2.2M

270

2100

5275

2 degrees FALL

GU U

WINTER SOLSTICE 3PM

29960 2 9960 9 BOUNDAR 96 BOUNDARY BOUN BOUN N Y LINE

500MM STANDING SEAM ROOF 100MM TIMBER PURLINS 10MM PLASTERBOARD CEILING

100MM PVC DOWNPIPE

5MM SYNTHETIC TEXTURED CARPET

15MMPLYWOOD JOISTS

270MM DOUBLE BRICK CAVITY EXTERNAL WALL

MATERIALS

4MM DOUBLE LOW E GLASS

12MM AIR SPACE UPVC FRAME

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BACHELOR OF ARCHITECTURE AND ENVIRONMENTS

SUBJECT // BDES2013 ARCHITECTURAL TECHNOLOGIES 2 GRADE // D sustainable site specific function hall.

SITE RESPONSE

NO NATURAL COOLING 5.64

20.00

5.64

21 JUNE

THE NORTH FACING FUNCTION HALL EFFECTIVELY RECEIVES SUFFICIENT SUNLIGHT IN WINTER AND SUMMER TO THE MAIN FUNCTION ROOM THROUGH ITS WIDE WINDOWS.

NEGATI

THIS DIAGRAM SHOWS THE ORIGINAL DESIGN THAT DOES NOT MAXIMISE NATURAL VENTULATION WHICH WILL INCREASE INDOOR TEMPERATURE. THUS THE KITCHEN, STOREROOM AND TOLIET WERE MOVED AWAY FROM THE EAST TO THE SOUTH.

VE PR ESSU

- RE

+ + + POSITIVE PRESSURE

21 SEPTEMBER

NEGATI

VE PR ESSU

+ + + POSITIVE PRESSURE

21 DECEMBER

THE MATERIALS ALLOCATED CAN RETAIN HEAT THROUGHOUT THE DAY BY USING THE BRICK WALL AND RELEASE THE HEAT AT NIGHT. POSITIONING OF THE INLETS AND OUTLETS ARE IMPORTANT TO NOTE AS THEY CAN BE OPENED OR CLOSED DEPENDING ON THE NEED FOR VENTILATION.

STRATERGIES: SUNLIGHT AND SHADING: TO MINIMISE SUNLIGHT DURING SUMMER HORIZONTAL SLIDING DOORS HAS BEEN PLACED ON THE EXTRIOR OF THE BUILDING (NORTH AND WEST) IN ADDITION TO GLASS SLIDING DOORS. THE WALL TO WINDOW RATIO ON THE NORTH FACADE IS LESS THAN HALF SUCH THAT IT REDUCES THE AMOUNT OF SUNLIGHT AND RADIATION ENTERING. AS SEEN FROM THE DIAGRAMS THE EXTENDED CANTERLEVER PROVIDES SUFFICENT SHADING. OVERALL OUR BUILDING IS CONTRIBUTING TO THE SITE AS THE PROPOSED AREA IS A HIGHLY USED AREA WITH OPPORTUNITY IN TERMS OF CREATING A SITE WITH FULL SHADING. THE CURRENT EVENT HALL IS HIGHLY USED AND OFTEN BOOKED. OUR HALL PROVIDES A HIGHER CONNECTION BETWEEN THE SEA SOUND WHICH CAN BE CONSIDERED THEAPUTIC AND SACRED.

STRUCTURAL SYSTEM

STANDING SEAM METAL ROOF (CHARCOAL) EACH PANEL (300mm) WILL BE CONSTRUCTED ON SITE. ONE PANEL WILL BE NAILED TO THE BATTENS BEFORE ANOTHER SLIDE OVER.

120mm PLYWOOD BATTEN EACH SPAN IS 800mm

50mm WOODEN CEILING PANEL CEDAR WOOD NAILED IN BETWEEN THE BATTENS AND RAFTERS

250mm WOODEN RAFTERS THESE RAFTERS ARE EXPOSED. THEY WILL HOLD THE PRIMARY LOAD

REVERSE VENEER BRICK WALL BRICK WALL WILL CONNECT TO RAFTERS THROUGH L SHAPED BRACKET

EXTERNAL VULCAN HECTOR CLADDING (H3 TREATED) CONCRETE SLAB- CREAM POLISH FINISH

13mm CEDAR WOOD DECKING BOLTED TO THE JOIST 330mm CEDAR WOOD JOIST, THE SECTION THAT IS CANTILEVER OFF THE EARTH WILL BE BOLTED TO THE UINIVERSAL BEAMS. THE BACK SECTION WILL BE BOLTED TO THE CONCRETE SLAB TO ALLOW DRAINAGE.

360UB57 HOLLOW GALVANISED STEEL POST TENSION AND COMPRESSION CABLE WITH ANCHOR DISC

CONSTRUCTION ANALYSIS

Double Low-e Glass (E* = 0.1) 12mm Air Space 50mm Aluminium Frame

30mm EXTRUDED POLYSTYRENE (XPS) Insulation (1.1R) 75 x 110 x 230mm DOUBLE BRICK WALL (1.7R)

CAVITY & BRICK TIES WOODEN FRAME THERMAL INSULATION

25mm CAVITY

Thermal Break

CLAY BRICK

WHITE PLASTERBOARD VALCAN HECTOR CLADDING

LOW E GLASS IS AN EFFECTIVE METHOD TO ALLOW HEAT TO PENETRATE WHILST KEEPING THE HEAT IN DURING WINTER. THE THERMAL BREAK ACTS AS A BARRIER TO PREVENT FLOW OF THERMAL ENERGY FROM THE CONDUCTIVE ALUMINIUM WINDOW FRAME. DOUBLE PANE IS AN EFFECTIVE INSULATING AIR POCKET IN HEAT TRANSFER.

BASED ON THE LOCATION, SITUATED IN A MODERATE AND TEMPERATE CLIMATE WITH MINIMAL EXTREME WEATHER CONDITION THIS WALL IS SUITABLE. HERE, THE TOTAL R-VALUE IS 2.8R VALUE WHICH HAS PROVEN IN REDUCING ENERGY EXEXERTING FROM INSIDE TO OUT.

CONSTRUCTION NOTES:

MATERIAL NOTES:

ROOF SYSTEM: ALL ROOFING SYSTEM CAN BE TRANSPORTED VIA TRUCK AND SONTRUCTRED ON SITE. AS SEEN IN THE SITE ANALYSIS ACCESSABILITY IS HIGH. TO MINIMISE WASTE WE USED THEIR PREFABICATED AND STANDARD DEMENSION FOR THE PANELS.

THE BALUSTRADE CAN BE MOSTLY PREFABRICATED TO REDUCE TIME FOR ON SITE CONSTRUCTION.

CEDAR WOOD: CEDAR WOOD WAS CHOSEN THROUGHOUT THE BUILDING INCLUDING THE PRIMARY AND SECONDARY STRUCTURE FOR ITS SUSTAINABILITY. THROUGHOUT THE LIFE CYCLE OF MATERIALS WOOD IS EASIER TO RECYCLE THAN STEEL AND OTHER METALS. IT ALSO USES APPROX 11MJ/KG PER EMBODIED ENERGY COMPARED TO ALUMINIUM: 170MJ/KG. HOWEVER, THE LIFECYCLE OF ALUMINIUM IS SIGNIFICANTLY LONGER.

WALL SYSTEM: SIMILAR TO THE ROOF, THE BRICKS, CONCRETE AND CLADDING CAN BE CONSTRUCTED ON SITE. FLOOR SYSTEM: THE DECKING, JOIST, UB AND TENSION & COMPRESSION CABLE CAN BE CONSTRUCTED ON SITE. THE UB AND STEEL POST ARE STABLED WITH CROSS BRACING.

CONSTRUCTION NEEDS TO HAVE MINIMAL IMPACT ON NOISE. THE MAJORITY OF THE MATERIALS WERE CHOSEN BASED ON SUSTAINABILITY IN RELATION TO LIFE CYCLE ASSESSMENT. THERE IS AN OPPORTUNITY FOR A WATER TANK TO BE INSTALLED AT THE SOUTH END OF THE BUILDING WHERE THE GUTTER IS. THIS WILL ALLOW RECYCLABLE WATER TO BE REUSED. (SHOWN IN DIAGRAM PAGE 1)

HERE THERMAL MASS (BRICK) IS ON THE INTERIOR OF THE BUILDING. WHEN COMBINED WITH INSULATION AND WOODEN CLADDING IT CONTRIBUTES TO USER COMFORT AS IT STORES HEAT INSIDE FOR WINTER FROM THE BULK INSULATION. AT NIGHT WINDOWS CAN BE OPENED ALLOWING NIGHT FLUSH AS SHOWN IN DIAGRAMS ON PAGE 5.

L SHAPED, STAINLESS STEEL BRACING TO CONNECT THE BATTEN TO THE REVERSE BRICK WALL

STANDING SEAM ALUMINIUM ROOF (11 DEGREE PITCH) 80mm LAMINATED VENNER LUMBER (LVL)PURLIN WITH VENTILATION GAP AND THERAL INSULATION FOIL

WINDOW AND FLASHING 110mm CLAY BRICK WITH 25mm CAVITY

CEDAR WOOD CEILING WITH OIL VARNISH

110mm DOUBLE CLAY BRICK WALL WITH BRICK TIES TIMBER TO SUPPORT BEAM

250mm WIDTH X 110mm THICKNESS CEDAR BATTERNS WITH AN OUTDOOR BASE VARNISH 110 X 118mm ALUMINIUM GUTTER

90mm FRAME WITH BULK INSULATION

1200mm WIDTH, 30MM THICKNESS DCT THERMAL CHECK (1.4 R-VALUE)

PINE BALLUSTRADE WITH STAINLESS STREEL WIRE

2700mm WIDTH, 10mm THICKNESS WHITE PLASTERBOARD

250mm WIDTH, 20mm THICKNESS VALCAN HECTOR CLADDING. PANTINA FINISH-OXIDISATION PROCESS

110 X 40mm PLYWOOD JOIST CONCRETE SLAB

CREAM POLISHED CONCRETE FINISH 110mm THICKNESS, 160mm HEIGHTLEGDER

FLASHING

110mm THICKNESS, 330mm HEIGHT DECKING JOIST (SPOTTED GUM HARDWOOD)

360UB57

150 X 50mm REEDED PROFILE, CYPRESS DECKING BOARDS. OUTDOOR OIL BASED FINISH.

800 X 800mm PIER WITH GALVANIZED FOOTING 200mm UNDERGROUND

SHORT CROSS SECTION OF HALL OF CELEBRATION PAGE 11

Scale 1:50 0 1

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BACHELOR OF ARCHITECTURE AND ENVIRONMENTS

SUBJECT // BAEN2002 DESIGN INTEGRATION LAB-ENERGY GRADE // D

residential apartment promoting sustainable strategies and materials.

ABERCROMBIE STREET

RAGLAN STREET

GROUND LEVEL PLAN (SHADOW CAST 12PM 21 JUNE)

2 3

SECOND LEVEL

THIRD LEVEL

SEFAIRA Here, the pie chart and the table shows the progression of the design. We experimented with materials and U values to achieve the most efficient and successful current result. To create an effective passive design for the residence on our site, many factors were vital to be taken into consideration when allocating specific materials such as double glass low-e windows and double brick walls.

ORIGINAL PASSIVE DESIGN STRATEGIES OUTPUT

NEW SUSTAINABLE DESIGN OUTPUT Here, the quantity of the building heated up was able to be reduced by 22% using natural ventilation, windows open during operational hours and using a rotated brick design. Natural ventilation was also increased (as shown in the ventilation diagram below), hence, reducing the energy spent on artificial cooling within the residence. There are approximately 8760 hours in a year, where we have achieved 6232 hours (71.1%) of thermal comfort throughout the year.

+ WIND NORTHWEST

+ +

WIND SOUTHEAST W

VENTILATION/HEAT DIAGRAM ON LONG SECTION

Recycled water system: The residential dwelling is designed with a 70000L rain water tank. There is a treatment plant underground where both blakc & grey water passes through the septic tank for treatment before being reused for the garden and the toilet. The water obtained from this plant can be store & used for emergencies such as fire sprinklers and extreme summer droughts.

DRIP IRRIGATION SYSTEM

VEGETATION MANUFACTURED SOIL (10MM) GEOTEXTILE FILTER FABRIC 145GSM (15MM) SYNTHETIC DRAINAGE MESH: DIMPLED SINGLE SIDED PLASTIC SHEET (10MM) HIGH DENSITY POLYETHYLENE (HDPE) ROOT BARRIER (1MM)

WATER PUMP

LANDSCAPE DETAILING

DESIGN 1

TRADITIONAL A A DOUBLE BRICK VENEER

22 DECEMBER

21 JUNE

DESIGN 2

DOUBLE BRICK VENEER WITH EVERY SECOND BRICK MOVED 50MM FORWARD

DESIGN 3

DOUBLE BRICK VENEER WITH EVERY THIRD BRICK MOVED 50MM FORWARD

DESIGN 4

DOUBLE BRICK VENEER WITH EVERY SECOND BRICK ROTATED 10 DEGREES OUT

DESIGN 5

DOUBLE BRICK VENEER WITH EVERY SECOND BRICK ROTATED 10 DEGREES TO THE RIGHT AND EVERY FOURTH ROTATED 10 DEGREES TO THE LEFT

SECTION OF BRICK DESIGN 5

BLACK SLATED BRICK

BRICK TIE

Initially, our process included five variations of the brick facade. Each facade varied in the angle of the brick layout, which in turn results in variation of shading and sunlight upon the facade, as shown through our shadow analysis. The final choice was based upon primarily its heating and cooling affect upon our residential apartment. Shown in the diagram, the final brick layout provides sufficient heating during winter through the exposed brick, and provides less cooling during summer. However, despite the reduced cooling effect provided by the facade during summer, it is accounted for by the passive cooling strategies incooporated in the design. Hence, overall, the brick layout chosen is an effective method which works well with the existing passive design strategies. Our final design casts more shadows than the other designs; thus, there is more solar radiation for natural heating rather than utilising artificial sources of heating.

20MM AIR CAVITY

CONCRETE SLAB

This algorithm mic script was use ed to analysis sun radiation for the brick. Due to some difficult ties results were inconclusive.

Dark coloured slated bricks have a higher absorbency rate for solar radiation than lighter coloured bricks. Our dark grey coloured bricks were chosen to increase natural heating from sunlight and reduce excessive energy use to heat up the building during winter. In summer, passive design strategies such as the stacking effect, cross ventilation and night purging have been incoorporated to counteract against the absorption of heat from the dark coloured bricks. Hence, the choice of dark coloured bricks effectively works cohesively with existing passive strategies.